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Prof. Yumi Yakiyama
Development and Potential of New Materials
carbon-based materials in modern technology
Evolution of research from fullerenes to buckybowl molecules
Fundamentals of Fluorosumanenes
Structural characteristics and origin of the name "Fluorosumanenes"
Unique properties of buckybowl molecules: comparison with fullerenes
Chemical significance of fluorination in material science
Basics of Dielectric Materials
Definition and functions of dielectric materials
Relationship between dielectric constant and material performance
Why choose Fluorosumanenes as dielectric materials?
Synthesis and Characterization Techniques
Synthetic pathways for Fluorosumanenes
Relevant experimental techniques: NMR, XRD, electron microscopy, etc.
Correlation between structure and properties
Dielectric Properties of Fluorosumanenes
Experimental results: measurement of dielectric constant and loss factor
Role of fluorine substitution in enhancing dielectric properties
Performance comparison with other dielectric materials
Applications and Future Prospects
Potential applications in high-frequency electronic devices
Feasibility of integration with existing materials
Comprehensive Discussion and Outlook
Why Fluorosumanenes are promising candidates for next-generation materials
Potential uses in renewable energy, electronic devices, and other fields